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Applied Geomatics

, Volume 10, Issue 4, pp 427–439 | Cite as

A geographycal information system to support restoration activities: a methodological approach experienced upon the case study of Ascoli Satriano Fortress

  • Eva Savina Malinverni
  • Roberto Pierdicca
  • Andrea Giuliano
  • Fabio Mariano
Original Paper
  • 56 Downloads

Abstract

This paper deals with the development of a geographic information system (GIS), specifically designed for the restoration process of Ascoli Satriano Fortress (an important example of military architecture in the south of Italy), using as entry data its 3D modelling obtained with a standard multi-view stereo (MVS) pipeline. The work described has been developed following a methodological approach, highlighting best practices for the management of different information and the creation of specific thematic maps, demonstrating how a close cooperation between restorers and geomatics experts can be the turnkey for the conservation process of the architectural heritage. In this research, the GIS implementation proposed for the cataloguing and the management of historical buildings serves to define the abacus of the materials and the decay analysis performed by restorers The aim is to create a link between the survey’s output and both quantitative/descriptive information, useful for managing the restoration process in all the steps of the work. The management of an historical building into an integrated system enables all the actors involved in the process to be as much faithful as possible with the real building features.

Keywords

Geographic information system Restoration process Ascoli Satriano Fortress 

References

  1. BAAAS Soprintendenza (2003) Sicar: geographic information system for the documentation of restoration analysis and intervention. In: Proceedings of SPIE, vol 5146Google Scholar
  2. Bryan P, Blake B, Bedford J, Barber D, Mills J (2013) Metric survey specifications for cultural heritage. English HeritageGoogle Scholar
  3. Campanaro DM, Landeschi G, Dell’Unto N, Touati A-ML (2016) 3D GIS for cultural heritage restoration: a ’white box’workflow. J Cult Herit 18:321–332CrossRefGoogle Scholar
  4. Canciani M, Ceniccola V, Messi M, Saccone M, Zampilli M (2013) A 3D GIS method applied to cataloging and restoring: the case of Aurelian Walls at Rome. ISPRS-Int Arch Photogramm Remote Sens Spat Inf Sci 1(2):143–148CrossRefGoogle Scholar
  5. Charter A (1931) The Athens Charter for the restoration of historic monuments. In: Ist International Congress of Architects and Technicians of Historic Monuments, AthensGoogle Scholar
  6. Charter ICOMOS (2003) Principles for the analysis, conservation and structural restoration of architectural heritage. Ratified by the ICOMOS 14th General Assembly, Victoria Falls, available at: www.icomos.org/charters/structures_e.pdf
  7. Chiabrando F, Lo TM, Rinaudo F (2017) Modeling the decay in an HBIM starting from 3D point clouds. A followed approach for cultural heritage knowledge. Int Arch Photogramm Remote Sens Spat Inf Sci 42:605–612CrossRefGoogle Scholar
  8. Cimaglia NM (1757) Antiquitates Venusinae: tribus libris explicatae: Asculanensium antiquitates et Dauniae Apuliaeque veteris geographia. RaymundGoogle Scholar
  9. De Amorim AL, Fangi G, Malinverni ES (2013) Documenting architectural heritage in Bahia, Brazil, using spherical photogrammetry. ISPRS Int Arch XL-5 W 2:219–224Google Scholar
  10. De Luca L, Busayarat C, Stefani C, Véron P, Florenzano M (2007) An integrated framework to describe, analyze, document and share digital representations of architectural buildings. pp 24–27 of: VAST 2007: futures technologies to empower the heritage professionalsGoogle Scholar
  11. De L, Livio B, Chawee S, Chiara VP, Florenzano M (2011) A semantic-based platform for the digital analysis of architectural heritage. Comput Graph 35(2):227–241CrossRefGoogle Scholar
  12. De Vita R (2001) Castelli, torri ed opere fortificate di Puglia. AddaGoogle Scholar
  13. Dore C, Murphy M (2012) Integration of Historic Building Information Modeling (HBIM) and 3D GIS for recording and managing cultural heritage sites. 2012 18th International Conference on Pages 369–376 of: Virtual Systems and Multimedia (VSMM). IEEEGoogle Scholar
  14. Drap P, Seinturier J, Chambelland J-C, Gaillard G, Pires H, Vannini G, Mucciotti M, Pruno E (2009) Going to shawbak (Jordan) and getting the data back: toward a 3D GIS dedicated to medieval archaeology. Proceedings of 3D Arch, pp 28–31Google Scholar
  15. D’Urso MG, Corsi E, Nemeti S, Germani M (2017) From excavations to WEB: a GIS for archaeology. International Archives of the Photogrammetry. Remote Sens Spat Inf Sci 42:219–226Google Scholar
  16. Fangi G, Wahbeh W, Malinverni ES, Di Stefano F, Pierdicca R (2017) Archaeological Syrian Heritage memory safeguard by low cost geomatics techniques. In: IMEKO International Conference on Metrology for Archaeology and Cultural Heritage, Lecce, Italy, October 23-25Google Scholar
  17. Fassi F, Campanella C (2017) From daguerreotypes to digital automatic photogrammetry. applications and limits for the built heritage project. International Archives of the Photogrammetry. Remote Sens Spat Inf Sci 42:313–319Google Scholar
  18. Günay S (2011) From data to information: methodology for a GIS based historic building conservation project. In: Proceedings ofXXIII CIPA Symposium-Prague, Czech Republic-12/16 SeptemberGoogle Scholar
  19. ICOMOS Venice Charter (1964) International Charter for the Conservation and Restoration of Monuments and SitesGoogle Scholar
  20. ICOMOS (2012) What is OUV. Defining the outstanding universal value of cultural world heritage propertiesGoogle Scholar
  21. Landeschi G, Dell’Unto N, Lundqvist K, Ferdani D, Campanaro DM, Touati A-ML (2016) 3D-GIS as a platform for visual analysis: Investigating a Pompeian house, vol 65Google Scholar
  22. Lenticchia E, Coïsson E (2017) The use of GIS for the application of the phenomenological approach to the seismic risk analysis: the case of the Italian fortified architecture. International Archives of the Photogrammetry. Remote Sens Spat Inf Sci 42:39–46Google Scholar
  23. Opitz R, Nowlin J (2012) Photogrammetric modeling+ GIS: better methods for working with mesh data. ArcUser Spring, pp 46– 49Google Scholar
  24. Parenti R, Vecchi A, Gilento P (2010) Integrated system for the study and the management of the historical buildings. In: Proceedings of the 38th Conference on Computer Applications and Quantitative Methods in ArchaeologyGoogle Scholar
  25. Pedelì C (2013) An interdisciplinary conservation module for condition survey on cultural heritages with a 3D information system. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, pp 483–487Google Scholar
  26. Pelcer-Vujačić O, Kovačević S (2016) A GIS Database of Montenegrin Katuns (Kuči Mountain and Durmitor). Pages 72–80 of: Euro-Mediterranean Conference. Springer, BerlinGoogle Scholar
  27. Quattrini R, Pierdicca R, Morbidoni C (2017) Knowledge-based data enrichment for HBIM: exploring high-quality models using the semantic-web. Journal of Cultural HeritageGoogle Scholar
  28. Rosario P (1989) Dall’Ofanto al Carapelle. Popolo Libreria EdGoogle Scholar
  29. Salonia P (2003) Strumenti informatici innovativi di ausilio alla conservazione del patrimonio storico architettonico: problemi di organizzazione, diffusione e gestione dati. Rossi M., Salonia P., a cura di Comunicazione Multimediale per i Beni Culturali. Addison-Wesley, MilanoGoogle Scholar
  30. Salonia P, Negri A (2003a) Historical buildings and their decay: data recording, analysing and transferring in an ITC environment. Int Arch Photogramm Remote Sens Spat Inf Sci 34(5/W12):302–306Google Scholar
  31. Salonia P, Negri A (2003b) Cultural heritage emergency: GIS-based tools for assessing and deciding preservation and management. In: Twenty-Third Annual ESRI International User Conference. San Diego, CaliforniaGoogle Scholar
  32. Salonia P, Messina TL, Marcolongo A, Appolonia L (2011) Photo scanner 3D survey for monitoring historical monuments. The case history of Porta Praetoria in Aosta. Geoinformatics FCE CTU 6:314–322CrossRefGoogle Scholar
  33. Saygi G, Remondino F (2013) Management of Architectural Heritage Information in BIM and GIS: state-of-the-art and future perspectives. Int J Herit Digit Era 2(4):695–713CrossRefGoogle Scholar
  34. Scianna A, La Guardia M (2017) Main features of a 3D GIS for a monumental complex with an historical-cultural relevance. International Archives of the Photogrammetry. Remote Sens Spat Inf Sci 42:519–526Google Scholar
  35. Toz G, Duran Z (2004) Documentation and analysis of cultural heritage by photogrametric methods and GIS: a case study. Pages 438–441 of: XXth ISPRS Congress. Istanbul, TurkeyGoogle Scholar
  36. UNI Norma (2006) 11182-2006. Beni culturali-Materiali lapidei naturali ed artificiali-Descrizione della forma di alterazione-Termini e definizioniGoogle Scholar
  37. Vismara S (1941) Le colonie cassinesi in capitanata. III. Ascoli Satriano (in Miscellanea Cassinese n. 19)Google Scholar

Copyright information

© Società Italiana di Fotogrammetria e Topografia (SIFET) 2018

Authors and Affiliations

  1. 1.Department of Construction, Civil Engineering and ArchitectureUniversità Politecnica delle MarcheAnconaItaly

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